材料科学
碳化硅
放电等离子烧结
陶瓷
等离子体
SPARK(编程语言)
碳化物
冶金
复合材料
计算机科学
量子力学
物理
程序设计语言
作者
Benito Román-Manso,Á. De Pablos,Manuel Belmonte,M.I. Osendi,P. Miranzo
摘要
Concentrated ceramic inks based on `-SiC powders, with different amounts of Y 2 O 3 and Al 2 O 3 as sintering aids, are developed for the adequate production of SiC scaffolds, with different patterned morphologies, by the Robocasting technique. The densifi cation of the as-produced 3D structures, previously heat treated in air at 600 oC for the organics burn-out, is achieved with a Spark Plasma Sintering (SPS) furnace. The effects of the amount of sintering additives (7 - 20 wt. %) and the size of the SiC powders (50 nm and 0.5 μm) on the processing of the inks, microstructure, hardness and elastic modulus of the sintered scaffolds, are studied. The use of nano-sized `-SiC powders signifi cantly restricts the attainable maximum solids volume fraction of the ink (0.32 compared to 0.44 of the submicron-sized powders-based ink), involving a much larger porosity of the green ceramic bodies. Furthermore, reduced amounts of additives improve the mechanical properties of the ceramic skeleton; particularly, the stiffness. The grain size and specifi c surface area of the starting powders, the ink solids content, green porosity, amount of sintering additives and SPS temperatures are the main parameters to be taken into account for the production of these SiC cellular ceramics.
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